The QMetaType class manages named types in the meta-object system. More...
Header: | #include <QMetaType> |
CMake: | find_package(Qt6 COMPONENTS Core REQUIRED) target_link_libraries(mytarget PRIVATE Qt6::Core) |
qmake: | QT += core |
Note: All functions in this class are thread-safe.
enum | Type { Void, Bool, Int, UInt, Double, …, UnknownType } |
enum | TypeFlag { NeedsConstruction, NeedsDestruction, RelocatableType, IsEnumeration, IsUnsignedEnumeration, …, IsConst } |
flags | TypeFlags |
QMetaType(int typeId) | |
qsizetype | alignOf() const |
QPartialOrdering | compare(const void *lhs, const void *rhs) const |
void * | construct(void *where, const void *copy = nullptr) const |
void * | create(const void *copy = nullptr) const |
bool | debugStream(QDebug &dbg, const void *rhs) |
void | destroy(void *data) const |
void | destruct(void *data) const |
bool | equals(const void *lhs, const void *rhs) const |
QMetaType::TypeFlags | flags() const |
bool | hasRegisteredDataStreamOperators() const |
bool | hasRegisteredDebugStreamOperator() const |
int | id() const |
bool | isEqualityComparable() const |
bool | isOrdered() const |
bool | isRegistered() const |
bool | isValid() const |
bool | load(QDataStream &stream, void *data) const |
const QMetaObject * | metaObject() const |
const char * | name() const |
bool | save(QDataStream &stream, const void *data) const |
qsizetype | sizeOf() const |
bool | canConvert(QMetaType fromType, QMetaType toType) |
bool | canView(QMetaType fromType, QMetaType toType) |
bool | convert(QMetaType fromType, const void *from, QMetaType toType, void *to) |
QMetaType | fromName(QByteArrayView typeName) |
QMetaType | fromType() |
bool | hasRegisteredConverterFunction(QMetaType fromType, QMetaType toType) |
bool | hasRegisteredConverterFunction() |
bool | hasRegisteredMutableViewFunction(QMetaType fromType, QMetaType toType) |
bool | hasRegisteredMutableViewFunction() |
bool | isRegistered(int type) |
bool | registerConverter() |
bool | view(QMetaType fromType, void *from, QMetaType toType, void *to) |
int | qMetaTypeId() |
int | qRegisterMetaType(const char *typeName) |
int | qRegisterMetaType() |
bool | operator!=(QMetaType a, QMetaType b) |
bool | operator==(QMetaType a, QMetaType b) |
Q_DECLARE_ASSOCIATIVE_CONTAINER_METATYPE(Container) | |
Q_DECLARE_METATYPE(Type) | |
Q_DECLARE_OPAQUE_POINTER(PointerType) | |
Q_DECLARE_SEQUENTIAL_CONTAINER_METATYPE(Container) | |
Q_DECLARE_SMART_POINTER_METATYPE(SmartPointer) |
The class is used as a helper to marshall types in QVariant and in queued signals and slots connections. It associates a type name to a type so that it can be created and destructed dynamically at run-time. Declare new types with Q_DECLARE_METATYPE() to make them available to QVariant and other template-based functions. Call qRegisterMetaType() to make types available to non-template based functions, such as the queued signal and slot connections.
Any class or struct that has a public default constructor, a public copy constructor, and a public destructor can be registered.
The following code allocates and destructs an instance of MyClass
:
int id = QMetaType::type("MyClass"); if (id != QMetaType::UnknownType) { void *myClassPtr = QMetaType::create(id); ... QMetaType::destroy(id, myClassPtr); myClassPtr = 0; }
If we want the stream operators operator<<()
and operator>>()
to work on QVariant objects that store custom types, the custom type must provide operator<<()
and operator>>()
operators.
See also Q_DECLARE_METATYPE(), QVariant::setValue(), QVariant::value(), and QVariant::fromValue().
These are the built-in types supported by QMetaType:
Constant | Value | Description |
---|---|---|
QMetaType::Void |
43 |
void |
QMetaType::Bool |
1 |
bool |
QMetaType::Int |
2 |
int |
QMetaType::UInt |
3 |
unsigned int |
QMetaType::Double |
6 |
double |
QMetaType::QChar |
7 |
QChar |
QMetaType::QString |
10 |
QString |
QMetaType::QByteArray |
12 |
QByteArray |
QMetaType::Nullptr |
51 |
std::nullptr_t |
QMetaType::VoidStar |
31 |
void * |
QMetaType::Long |
32 |
long |
QMetaType::LongLong |
4 |
LongLong |
QMetaType::Short |
33 |
short |
QMetaType::Char |
34 |
char |
QMetaType::Char16 |
56 |
char16_t |
QMetaType::Char32 |
57 |
char32_t |
QMetaType::ULong |
35 |
unsigned long |
QMetaType::ULongLong |
5 |
ULongLong |
QMetaType::UShort |
36 |
unsigned short |
QMetaType::SChar |
40 |
signed char |
QMetaType::UChar |
37 |
unsigned char |
QMetaType::Float |
38 |
float |
QMetaType::QObjectStar |
39 |
QObject * |
QMetaType::QVariant |
41 |
QVariant |
QMetaType::QCursor |
0x100a |
QCursor |
QMetaType::QDate |
14 |
QDate |
QMetaType::QSize |
21 |
QSize |
QMetaType::QTime |
15 |
QTime |
QMetaType::QVariantList |
9 |
QVariantList |
QMetaType::QPolygon |
0x1007 |
QPolygon |
QMetaType::QPolygonF |
0x1016 |
QPolygonF |
QMetaType::QColor |
0x1003 |
QColor |
QMetaType::QColorSpace |
0x1017 |
QColorSpace (introduced in Qt 5.15) |
QMetaType::QSizeF |
22 |
QSizeF |
QMetaType::QRectF |
20 |
QRectF |
QMetaType::QLine |
23 |
QLine |
QMetaType::QTextLength |
0x100d |
QTextLength |
QMetaType::QStringList |
11 |
QStringList |
QMetaType::QVariantMap |
8 |
QVariantMap |
QMetaType::QVariantHash |
28 |
QVariantHash |
QMetaType::QIcon |
0x1005 |
QIcon |
QMetaType::QPen |
0x100c |
QPen |
QMetaType::QLineF |
24 |
QLineF |
QMetaType::QTextFormat |
0x100e |
QTextFormat |
QMetaType::QRect |
19 |
QRect |
QMetaType::QPoint |
25 |
QPoint |
QMetaType::QUrl |
17 |
QUrl |
QMetaType::QRegularExpression |
44 |
QRegularExpression |
QMetaType::QDateTime |
16 |
QDateTime |
QMetaType::QPointF |
26 |
QPointF |
QMetaType::QPalette |
0x1004 |
QPalette |
QMetaType::QFont |
0x1000 |
QFont |
QMetaType::QBrush |
0x1002 |
QBrush |
QMetaType::QRegion |
0x1008 |
QRegion |
QMetaType::QBitArray |
13 |
QBitArray |
QMetaType::QImage |
0x1006 |
QImage |
QMetaType::QKeySequence |
0x100b |
QKeySequence |
QMetaType::QSizePolicy |
0x2000 |
QSizePolicy |
QMetaType::QPixmap |
0x1001 |
QPixmap |
QMetaType::QLocale |
18 |
QLocale |
QMetaType::QBitmap |
0x1009 |
QBitmap |
QMetaType::QTransform |
0x1010 |
QTransform |
QMetaType::QMatrix4x4 |
0x1011 |
QMatrix4x4 |
QMetaType::QVector2D |
0x1012 |
QVector2D |
QMetaType::QVector3D |
0x1013 |
QVector3D |
QMetaType::QVector4D |
0x1014 |
QVector4D |
QMetaType::QQuaternion |
0x1015 |
QQuaternion |
QMetaType::QEasingCurve |
29 |
QEasingCurve |
QMetaType::QJsonValue |
45 |
QJsonValue |
QMetaType::QJsonObject |
46 |
QJsonObject |
QMetaType::QJsonArray |
47 |
QJsonArray |
QMetaType::QJsonDocument |
48 |
QJsonDocument |
QMetaType::QCborValue |
53 |
QCborValue |
QMetaType::QCborArray |
54 |
QCborArray |
QMetaType::QCborMap |
55 |
QCborMap |
QMetaType::QCborSimpleType |
52 |
QCborSimpleType |
QMetaType::QModelIndex |
42 |
QModelIndex |
QMetaType::QPersistentModelIndex |
50 |
QPersistentModelIndex (introduced in Qt 5.5) |
QMetaType::QUuid |
30 |
QUuid |
QMetaType::QByteArrayList |
49 |
QByteArrayList |
QMetaType::User |
65536 |
Base value for user types |
QMetaType::UnknownType |
0 |
This is an invalid type id. It is returned from QMetaType for types that are not registered |
Additional types can be registered using Q_DECLARE_METATYPE().
See also type() and typeName().
The enum describes attributes of a type supported by QMetaType.
Constant | Value | Description |
---|---|---|
QMetaType::NeedsConstruction |
0x1 |
This type has non-trivial constructors. If the flag is not set instances can be safely initialized with memset to 0. |
QMetaType::NeedsDestruction |
0x2 |
This type has a non-trivial destructor. If the flag is not set calls to the destructor are not necessary before discarding objects. |
QMetaType::RelocatableType |
0x4 |
An instance of a type having this attribute can be safely moved to a different memory location using memcpy. |
QMetaType::IsEnumeration |
0x10 |
This type is an enumeration. |
QMetaType::IsUnsignedEnumeration |
0x100 |
If the type is an Enumeration, its underlying type is unsigned. |
QMetaType::PointerToQObject |
0x8 |
This type is a pointer to a derived of QObject. |
QMetaType::IsPointer |
0x800 |
This type is a pointer to another type. |
QMetaType::IsConst |
0x2000 |
Indicates that values of this types are immutable; for instance because they are pointers to const objects. |
The TypeFlags type is a typedef for QFlags<TypeFlag>. It stores an OR combination of TypeFlag values.
[since 5.0]
QMetaType::QMetaType(int typeId)
Constructs a QMetaType object that contains all information about type typeId.
This function was introduced in Qt 5.0.
[since 6.0]
qsizetype QMetaType::alignOf() const
Returns the alignment of the type in bytes (i.e. alignof(T), where T is the actual type for which this QMetaType instance was constructed for).
This function is typically used together with construct() to perform low-level management of the memory used by a type.
This function was introduced in Qt 6.0.
See also QMetaType::construct() and QMetaType::sizeOf().
[static]
bool QMetaType::canConvert(QMetaType fromType, QMetaType toType)
Returns true
if QMetaType::convert can convert from fromType to toType.
The following conversions are supported by Qt:
Casting between primitive type (int, float, bool etc.) is supported.
Converting between pointers of types derived from QObject will also return true for this function if a qobject_cast from the type described by fromType to the type described by toType would succeed.
A cast from a sequential container will also return true for this function if the toType is QVariantList.
Similarly, a cast from an associative container will also return true for this function the toType is QVariantHash or QVariantMap.
See also convert(), QSequentialIterable, Q_DECLARE_SEQUENTIAL_CONTAINER_METATYPE(), QAssociativeIterable, and Q_DECLARE_ASSOCIATIVE_CONTAINER_METATYPE().
[static]
bool QMetaType::canView(QMetaType fromType, QMetaType toType)
Returns true
if QMetaType::view can create a mutable view of type toType on type fromType.
Converting between pointers of types derived from QObject will return true for this function if a qobject_cast from the type described by fromType to the type described by toType would succeed.
You can create a mutable view of type QSequentialIterable on any container registered with Q_DECLARE_SEQUENTIAL_CONTAINER_METATYPE().
Similarly you can create a mutable view of type QAssociativeIterable on any container registered with Q_DECLARE_ASSOCIATIVE_CONTAINER_METATYPE().
See also convert(), QSequentialIterable, Q_DECLARE_SEQUENTIAL_CONTAINER_METATYPE(), QAssociativeIterable, and Q_DECLARE_ASSOCIATIVE_CONTAINER_METATYPE().
[since 6.0]
QPartialOrdering QMetaType::compare(const void *lhs, const void *rhs) const
Compares the objects at lhs and rhs for ordering.
Returns QPartialOrdering::Unordered if comparison is not supported or the values are unordered. Otherwise, returns QPartialOrdering::Less, QPartialOrdering::Equivalent or QPartialOrdering::Greater if lhs is less than, equivalent to or greater than rhs, respectively.
Both objects must be of the type described by this metatype. If either lhs or rhs is nullptr
, the values are unordered. Comparison is only supported if the type's less than operator was visible to the metatype declaration.
If the type's equality operator was also visible, values will only compare equal if the equality operator says they are. In the absence of an equality operator, when neither value is less than the other, values are considered equal; if equality is also available and two such values are not equal, they are considered unordered, just as NaN (not a number) values of a floating point type lie outside its ordering.
Note: If no less than operator was visible to the metatype declaration, values are unordered even if an equality operator visible to the declaration considers them equal: compare() == 0
only agrees with equals() if the less than operator was visible.
This function was introduced in Qt 6.0.
See also equals() and isOrdered().
[since 5.0]
void *QMetaType::construct(void *where, const void *copy = nullptr) const
Constructs a value of the type that this QMetaType instance was constructed for in the existing memory addressed by where, that is a copy of copy, and returns where. If copy is zero, the value is default constructed.
This is a low-level function for explicitly managing the memory used to store the type. Consider calling create() if you don't need this level of control (that is, use "new" rather than "placement new").
You must ensure that where points to a location where the new value can be stored and that where is suitably aligned. The type's size can be queried by calling sizeOf().
The rule of thumb for alignment is that a type is aligned to its natural boundary, which is the smallest power of 2 that is bigger than the type, unless that alignment is larger than the maximum useful alignment for the platform. For practical purposes, alignment larger than 2 * sizeof(void*) is only necessary for special hardware instructions (e.g., aligned SSE loads and stores on x86).
This function was introduced in Qt 5.0.
[static, since 5.2]
bool QMetaType::convert(QMetaType fromType, const void *from, QMetaType toType, void *to)
Converts the object at from from fromType to the preallocated space at to typed toType. Returns true
, if the conversion succeeded, otherwise false.
Both from and to have to be valid pointers.
This function was introduced in Qt 5.2.
[since 5.0]
void *QMetaType::create(const void *copy = nullptr) const
Returns a copy of copy, assuming it is of the type that this QMetaType instance was created for. If copy is nullptr
, creates a default constructed instance.
This function was introduced in Qt 5.0.
See also QMetaType::destroy().
[since 5.2]
bool QMetaType::debugStream(QDebug &dbg, const void *rhs)
Streams the object at rhs to the debug stream dbg. Returns true
on success, otherwise false.
This function was introduced in Qt 5.2.
[since 5.0]
void QMetaType::destroy(void *data) const
Destroys the data, assuming it is of the type that this QMetaType instance was created for.
This function was introduced in Qt 5.0.
See also QMetaType::create().
[since 5.0]
void QMetaType::destruct(void *data) const
Destructs the value, located at data, assuming that it is of the type for which this QMetaType instance was constructed for.
Unlike destroy(), this function only invokes the type's destructor, it doesn't invoke the delete operator.
This function was introduced in Qt 5.0.
See also QMetaType::construct().
[since 6.0]
bool QMetaType::equals(const void *lhs, const void *rhs) const
Compares the objects at lhs and rhs for equality.
Both objects must be of the type described by this metatype. Can only compare the two objects if a less than or equality operator for the type was visible to the metatype declaration. Otherwise, the metatype never considers values equal. When an equality operator was visible to the metatype declaration, it is authoritative; otherwise, if less than is visible, when neither value is less than the other, the two are considered equal. If values are unordered (see compare() for details) they are not equal.
Returns true if the two objects compare equal, otherwise false.
This function was introduced in Qt 6.0.
See also isEqualityComparable() and compare().
[since 5.0]
QMetaType::TypeFlags QMetaType::flags() const
Returns flags of the type for which this QMetaType instance was constructed.
This function was introduced in Qt 5.0.
See also QMetaType::TypeFlags and QMetaType::flags().
[static]
QMetaType QMetaType::fromName(QByteArrayView typeName)
Returns a QMetaType matching typeName. The returned object is not valid if the typeName is not known to QMetaType
[static, since 5.15]
template <typename T> QMetaType QMetaType::fromType()
Returns the QMetaType corresponding to the type in the template parameter.
This function was introduced in Qt 5.15.
[static, since 5.2]
bool QMetaType::hasRegisteredConverterFunction(QMetaType fromType, QMetaType toType)
Returns true
, if the meta type system has a registered conversion from meta type id fromType to toType
This function was introduced in Qt 5.2.
[static, since 5.2]
template <typename From, typename To> bool QMetaType::hasRegisteredConverterFunction()
Returns true
, if the meta type system has a registered conversion from type From to type To.
This is an overloaded function.
This function was introduced in Qt 5.2.
[since 6.1]
bool QMetaType::hasRegisteredDataStreamOperators() const
Returns true
, if the meta type system has registered data stream operators for this meta type.
This function was introduced in Qt 6.1.
[since 6.0]
bool QMetaType::hasRegisteredDebugStreamOperator() const
Returns true
, if the meta type system has a registered debug stream operator for this meta type.
This function was introduced in Qt 6.0.
[static, since 5.2]
bool QMetaType::hasRegisteredMutableViewFunction(QMetaType fromType, QMetaType toType)
Returns true
, if the meta type system has a registered mutable view on meta type id fromType of meta type id toType.
This function was introduced in Qt 5.2.
[static, since 6.0]
template <typename From, typename To> bool QMetaType::hasRegisteredMutableViewFunction()
Returns true
, if the meta type system has a registered mutable view on type From of type To.
This is an overloaded function.
This function was introduced in Qt 6.0.
[since 5.13]
int QMetaType::id() const
Returns id type hold by this QMetatype instance.
This function was introduced in Qt 5.13.
Returns true
if a less than or equality operator for the type described by this metatype was visible to the metatype declaration, otherwise false
.
See also equals() and isOrdered().
Returns true
if a less than operator for the type described by this metatype was visible to the metatype declaration, otherwise false
.
See also compare() and isEqualityComparable().
[static]
bool QMetaType::isRegistered(int type)
Returns true
if the datatype with ID type is registered; otherwise returns false
.
See also type(), typeName(), and Type.
[since 5.0]
bool QMetaType::isRegistered() const
Returns true
if this QMetaType object contains valid information about a type, false otherwise.
This function was introduced in Qt 5.0.
[since 5.0]
bool QMetaType::isValid() const
Returns true
if this QMetaType object contains valid information about a type, false otherwise.
This function was introduced in Qt 5.0.
Reads the object of this type from the given stream into data. Returns true
if the object is loaded successfully; otherwise returns false
.
The type must have been registered with Q_DECLARE_METATYPE() beforehand.
Normally, you should not need to call this function directly. Instead, use QVariant's operator>>()
, which relies on load() to stream custom types.
See also save().
[since 5.5]
const QMetaObject *QMetaType::metaObject() const
return a QMetaObject relative to this type.
If the type is a pointer type to a subclass of QObject, flags() contains QMetaType::PointerToQObject and this function returns the corresponding QMetaObject. This can be used to in combinaison with QMetaObject::construct to create QObject of this type.
If the type is a Q_GADGET, flags() contains QMetaType::IsGadget, and this function returns its QMetaObject. This can be used to retrieve QMetaMethod and QMetaProperty and use them on a pointer of this type. (given by QVariant::data for example)
If the type is an enumeration, flags() contains QMetaType::IsEnumeration, and this function returns the QMetaObject of the enclosing object if the enum was registered as a Q_ENUM or nullptr
otherwise
This function was introduced in Qt 5.5.
See also QMetaType::flags().
[since 5.15]
const char *QMetaType::name() const
Returns the type name associated with this QMetaType, or a null pointer if no matching type was found. The returned pointer must not be deleted.
This function was introduced in Qt 5.15.
See also typeName().
[static, since 5.2]
template <typename From, typename To> bool QMetaType::registerConverter()
Registers the possibility of an implicit conversion from type From to type To in the meta type system. Returns true
if the registration succeeded, otherwise false.
This function was introduced in Qt 5.2.
Writes the object pointed to by data to the given stream. Returns true
if the object is saved successfully; otherwise returns false
.
The type must have been registered with Q_DECLARE_METATYPE() beforehand.
Normally, you should not need to call this function directly. Instead, use QVariant's operator<<()
, which relies on save() to stream custom types.
See also load().
[since 5.0]
qsizetype QMetaType::sizeOf() const
Returns the size of the type in bytes (i.e. sizeof(T), where T is the actual type for which this QMetaType instance was constructed for).
This function is typically used together with construct() to perform low-level management of the memory used by a type.
This function was introduced in Qt 5.0.
See also QMetaType::construct(), QMetaType::sizeOf(), and QMetaType::alignOf().
[static, since 6.0]
bool QMetaType::view(QMetaType fromType, void *from, QMetaType toType, void *to)
Creates a mutable view on the object at from of fromType in the preallocated space at to typed toType. Returns true
if the conversion succeeded, otherwise false.
This function was introduced in Qt 6.0.
Returns the meta type id of type T
at compile time. If the type was not declared with Q_DECLARE_METATYPE(), compilation will fail.
Typical usage:
int id = qMetaTypeId<QString>(); // id is now QMetaType::QString id = qMetaTypeId<MyStruct>(); // compile error if MyStruct not declared
QMetaType::type() returns the same ID as qMetaTypeId(), but does a lookup at runtime based on the name of the type. QMetaType::type() is a bit slower, but compilation succeeds if a type is not registered.
See also Q_DECLARE_METATYPE() and QMetaType::type().
Registers the type name typeName for the type T
. Returns the internal ID used by QMetaType. Any class or struct that has a public default constructor, a public copy constructor and a public destructor can be registered.
This function requires that T
is a fully defined type at the point where the function is called. For pointer types, it also requires that the pointed to type is fully defined. Use Q_DECLARE_OPAQUE_POINTER() to be able to register pointers to forward declared types.
After a type has been registered, you can create and destroy objects of that type dynamically at run-time.
This example registers the class MyClass
:
qRegisterMetaType<MyClass>("MyClass");
This function is useful to register typedefs so they can be used by QMetaProperty, or in QueuedConnections
typedef QString CustomString; qRegisterMetaType<CustomString>("CustomString");
Warning: This function is useful only for registering an alias (typedef) for every other use case Q_DECLARE_METATYPE and qMetaTypeId() should be used instead.
See also isRegistered() and Q_DECLARE_METATYPE().
Call this function to register the type T
. T
must be declared with Q_DECLARE_METATYPE(). Returns the meta type Id.
Example:
int id = qRegisterMetaType<MyStruct>();
This function requires that T
is a fully defined type at the point where the function is called. For pointer types, it also requires that the pointed to type is fully defined. Use Q_DECLARE_OPAQUE_POINTER() to be able to register pointers to forward declared types.
After a type has been registered, you can create and destroy objects of that type dynamically at run-time.
To use the type T
in QVariant, using Q_DECLARE_METATYPE() is sufficient. To use the type T
in queued signal and slot connections, qRegisterMetaType<T>()
must be called before the first connection is established.
Also, to use type T
with the QObject::property() API, qRegisterMetaType<T>()
must be called before it is used, typically in the constructor of the class that uses T
, or in the main()
function.
See also Q_DECLARE_METATYPE().
[since 5.15]
bool operator!=(QMetaType a, QMetaType b)
This is an overloaded function.
Returns true
if the QMetaType a represents a different type than the QMetaType b, otherwise returns false
.
This function was introduced in Qt 5.15.
[since 5.15]
bool operator==(QMetaType a, QMetaType b)
This is an overloaded function.
Returns true
if the QMetaType a represents the same type as the QMetaType b, otherwise returns false
.
This function was introduced in Qt 5.15.
This macro makes the container Container known to QMetaType as an associative container. This makes it possible to put an instance of Container<T, U> into a QVariant, if T and U are themselves known to QMetaType.
Note that all of the Qt associative containers already have built-in support, and it is not necessary to use this macro with them. The std::map container also has built-in support.
This example shows a typical use of Q_DECLARE_ASSOCIATIVE_CONTAINER_METATYPE():
#include <unordered_list> Q_DECLARE_ASSOCIATIVE_CONTAINER_METATYPE(std::unordered_map) void someFunc() { std::unordered_map<int, bool> container; QVariant var = QVariant::fromValue(container); // ... }
This macro makes the type Type known to QMetaType as long as it provides a public default constructor, a public copy constructor and a public destructor. It is needed to use the type Type as a custom type in QVariant.
This macro requires that Type is a fully defined type at the point where it is used. For pointer types, it also requires that the pointed to type is fully defined. Use in conjunction with Q_DECLARE_OPAQUE_POINTER() to register pointers to forward declared types.
Ideally, this macro should be placed below the declaration of the class or struct. If that is not possible, it can be put in a private header file which has to be included every time that type is used in a QVariant.
Adding a Q_DECLARE_METATYPE() makes the type known to all template based functions, including QVariant. Note that if you intend to use the type in queued signal and slot connections or in QObject's property system, you also have to call qRegisterMetaType() since the names are resolved at runtime.
This example shows a typical use case of Q_DECLARE_METATYPE():
struct MyStruct { int i; ... }; Q_DECLARE_METATYPE(MyStruct)
If MyStruct
is in a namespace, the Q_DECLARE_METATYPE() macro has to be outside the namespace:
namespace MyNamespace { ... } Q_DECLARE_METATYPE(MyNamespace::MyStruct)
Since MyStruct
is now known to QMetaType, it can be used in QVariant:
MyStruct s; QVariant var; var.setValue(s); // copy s into the variant ... // retrieve the value MyStruct s2 = var.value<MyStruct>();
Some types are registered automatically and do not need this macro:
Note: This method also registers the stream and debug operators for the type if they are visible at registration time. As this is done automatically in some places, it is strongly recommended to declare the stream operators for a type directly after the type itself. Because of the argument dependent lookup rules of C++, it is also strongly recommended to declare the operators in the same namespace as the type itself.
The stream operators should have the following signatures:
QDataStream &operator<<(QDataStream &out, const MyClass &myObj); QDataStream &operator>>(QDataStream &in, MyClass &myObj);
See also qRegisterMetaType().
[since 5.0]
Q_DECLARE_OPAQUE_POINTER(PointerType)
This macro enables pointers to forward-declared types (PointerType) to be registered with QMetaType using either Q_DECLARE_METATYPE() or qRegisterMetaType().
This function was introduced in Qt 5.0.
See also Q_DECLARE_METATYPE() and qRegisterMetaType().
This macro makes the container Container known to QMetaType as a sequential container. This makes it possible to put an instance of Container<T> into a QVariant, if T itself is known to QMetaType.
Note that all of the Qt sequential containers already have built-in support, and it is not necessary to use this macro with them. The std::vector and std::list containers also have built-in support.
This example shows a typical use of Q_DECLARE_SEQUENTIAL_CONTAINER_METATYPE():
#include <deque> Q_DECLARE_SEQUENTIAL_CONTAINER_METATYPE(std::deque) void someFunc() { std::deque<QFile*> container; QVariant var = QVariant::fromValue(container); // ... }
This macro makes the smart pointer SmartPointer known to QMetaType as a smart pointer. This makes it possible to put an instance of SmartPointer<T> into a QVariant, if T is a type which inherits QObject.
Note that the QWeakPointer, QSharedPointer and QPointer already have built-in support, and it is not necessary to use this macro with them.
This example shows a typical use of Q_DECLARE_SMART_POINTER_METATYPE():
#include <memory> Q_DECLARE_SMART_POINTER_METATYPE(std::shared_ptr) void someFunc() { auto smart_ptr = std::make_shared<QFile>(); QVariant var = QVariant::fromValue(smart_ptr); // ... if (var.canConvert<QObject*>()) { QObject *sp = var.value<QObject*>(); qDebug() << sp->metaObject()->className(); // Prints 'QFile'. } }
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